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! <h2 style="margin:0;background-color:#cef2e0;font-size:120%;font-weight:bold;border:1px solid #a3bfb1;text-align:left;color:#000;padding:0.2em 0.4em;"> Course Topics</h2>
! <h2 style="margin:0;background-color:#cef2e0;font-size:120%;font-weight:bold;border:1px solid #a3bfb1;text-align:left;color:#000;padding:0.2em 0.4em;"> Course Topics</h2>
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|style="color:#000"|[[Image:Kbeqn.png|left|350px]]The dsdsdsdsdsd ].
|style="color:#000"|[[Image:Kbeqn.png|left|350px]]The course provides a hands-on experience for graduate students in sciences (physics, chemistry) and engineering (electrical, chemical, materials), as well as advanced undergraduates, to analyze electronic structure and transport properties of basic classes of  carbon, semiconductor, and magnetic nanostructures explored at the current research frontiers.
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! <h2 style="margin:0;background:#cef2e0;font-size:120%;font-weight:bold;border:1px solid #a3bfb1;text-align:left;color:#000;padding:0.2em 0.4em;">Quick Links</h2>
! <h2 style="margin:0;background:#cef2e0;font-size:120%;font-weight:bold;border:1px solid #a3bfb1;text-align:left;color:#000;padding:0.2em 0.4em;">Quick Links</h2>

Revision as of 16:03, 31 August 2009

PHYS 824: Introduction to Nanophysics Wiki


The course Website is embedded into UD Sakai
Instructor · UD Physics & Astronomy · Teaching Web Help · WikiLaTeX · Categories · Media · A–Z index

Course Topics

File:Kbeqn.png
The course provides a hands-on experience for graduate students in sciences (physics, chemistry) and engineering (electrical, chemical, materials), as well as advanced undergraduates, to analyze electronic structure and transport properties of basic classes of carbon, semiconductor, and magnetic nanostructures explored at the current research frontiers.
  • Nanostructures in equilibrium: graphene and other two-dimensional materials, carbon nanotubes, topological insulators, magnetic multilayers.
  • Nanostructure out of equilibrium: conductance quantization, quantum interference, spin-dependent tunneling, spin and quantum Hall effects, spin-transfer torque, I-V curves.
  • Theoretical techniques: elements of density functional theory (DFT), Landauer-Büttiker scattering formalism, nonequilibrium Green function techniques.
  • Experimental techniques: scanning tunneling and atomic force microscopy.
  • Applications: nanoelectronics, spintronics, thermoelectrics.

Quick Links

Template:Quick links

News

  • Final Project is posted and due on Friday 12/16 as poster presentation in Sharp Lab 225 at 2:00PM.

Lecture in Projects

Template:Lecture in progress


Wiki Getting Started

Consult User's Guide for information on using the wiki software.

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